CN102711233B - Communication terminal, base station apparatus and communication means - Google Patents

Abstract

Open communication terminal, base station apparatus and communication means. Wherein, communication terminal includes: receive unit, receives the pilot signal sent from described base station apparatus; Measuring unit, measures the reception power of the described pilot signal received; Select unit, according to the described reception power measured, from respectively from associated plurality of group different of described reception power selects a group, multiple codes that the plurality of group of initial stage when comprising respectively for starting the communication between described base station apparatus is accessed; And transmitting element, in the plurality of code comprised from described group selected, it is randomly chosen code and uses it to perform the transmission of the initial stage access for described base station apparatus is carried out. It is prevented from other communities adjacent with this community and produces interference signal, and the handling capacity of this community can be improved.

Description

Communication terminal, base station apparatus and communication means

The divisional application of application for a patent for invention that the application is the applying date, and to be on June 6th, 2005, application number be 200580019047.1, denomination of invention is " communication terminal, base station apparatus and wireless communication system ".

Technical field

The present invention relates to a kind of wireless communication system and constitute communication terminal and the base station apparatus of this system.

Background technology

In the past, in wireless communication system, the communication terminals such as mobile phone are when starting radio communication, communication terminal receives the pilot signal that base station apparatus periodically sends, and will pass through open loop according to its quality of reception RACH (RACH:RandomAccessChannel) and be transmitted the access request signal of Electric control (OL-TPC) to base station apparatus transmission. Then, described communication terminal is sent access permission signal when receiving this access request signal by base station apparatus.

Fig. 1 illustrates the ideograph of structure of conventional wireless communication system. Wireless communication system shown in Fig. 1 includes base station apparatus 11 and multiple communication terminal 12. It addition, for multiple communicators 12, will be located in the communication terminal in good condition that receives near base station apparatus 11 and be decided to be communication terminal 12-1. It addition, will be located in the communication terminal near the communication range border of base station apparatus 11, i.e. cell edge to be decided to be communication terminal 12-2.

Fig. 2 for being shown in when communication terminal 12 starts radio communication with time sequencing, the figure of the wireless signal receiving between communication terminal 12 and base station apparatus 11/sending. As in figure 2 it is shown, first base station apparatus 11 by the common pilot channel (CPICH:CommonPilotChannel) in downlink with certain power to multiple communication terminal 12 pilot signal transmitteds.

Next, communication terminal 12 is when receiving this pilot signal, with the transmit power corresponding with its quality of reception (for the reception power of the pilot signal of CPICH in Fig. 2), the RACH in up-link is utilized to send access request signal to base station apparatus 11. As this RACH the operable resource of sub-channel such as: regularly, extended code and subcarrier etc. determined in advance, communication terminal 12, when sending access request signal, is randomly chosen 1 from described determined resource.

It follows that base station apparatus 11 is after receiving this access request signal, forward access channel (FACH:ForwardAccessChannel) is utilized to send access permission signal with certain power to communication terminal 12. It follows that communication terminal 12 is after receiving this access permission signal, utilizes the data channel in up-link with the transmit power corresponding with the quality of reception of described pilot signal, send packet to base station apparatus 11. It addition, arrow downward in each channel in Fig. 2 represents downlink, arrow upwards represents up-link.

It addition, divided by beyond upper conventional art, communication terminal 12 improves the transmit power to base station apparatus 11 first at leisure while sending the short packet being referred to as leading (Preamble). Base station apparatus 11 is when detecting this and being leading, and the technology that communication terminal 12 sends access request signal to base station apparatus 11 is also developed. (referring for example to patent documentation 1)

Patent documentation 1: patent is Publication spy table 2002-528997 again

Summary of the invention

Problem to be addressed by invention

But, conventional art as shown in Figure 2, multiple communication terminals 12 receive the pilot signal in CPICH respectively simultaneously, and it is randomly chosen the sub-channel of the RACH sending access request signal, therefore, likely multiple communication terminals 12 send access request signal with same sub-channels, and base station apparatus 11 cannot receive these access request signals.

When base station apparatus 11 cannot receive the access request signal from communication terminal 12, base station apparatus 11 just cannot send access permission signal to communication terminal 12, therefore communication terminal 12 is sending access request signal and after the predetermined time, determine that the access request signal just now sent is not received by base station 11, just again send access request signal after the time to base station apparatus 11 through predetermined compensation (backoff). That is, above-mentioned conventional art is likely to be due to the conflict of the access request signal that multiple communication terminal 12 utilizes RACH to send and cannot be received by base station apparatus 11, additionally communication terminal 12 need the regular hour just can determine the access request signal being previously sent receives either with or without by base station apparatus 11, furthermore communication terminal 12 sets the predetermined compensation time starting again to send till access request signal, therefore communication terminal 12 start radio communication needed for time longer, and the problem with wireless communication system throughput degradation.

It addition, above-mentioned conventional art, due to from being in the access request signal of communication terminal 12-2 of cell edge with high-power and sent in multiple times, and there is the problem that this access request signal becomes the interference signal of other communities adjacent.

Furthermore, above-mentioned conventional art, when base station apparatus 11 receives access request signal, the position sending the communication terminal 12 of this access request signal cannot be confirmed, therefore base station apparatus 11 is make all communication terminals 12 being in this community can receive access permission signal, the access permission signal utilizing FACH to send is not transmitted power control but sends with high-power, therefore there is problem that access permission signal becomes the interference signal of other communities adjacent as also described above.

Additionally, the technology that patent documentation 1 is recorded, communication terminal 12 to base station apparatus 11 to send access request signal with the leading power enough fully obtained, problem therefore in the interference signal becoming other communities adjacent of the communication terminal 12-2 of the cell edge access request signal sent is improved, but due to the conflict that produces of above-mentioned access request signal and the problem of throughput degradation that causes, and the problem of the access permission signal that sends of the base station apparatus 11 interference signal that becomes other communities adjacent does not but improve.

It is an object of the invention to provide a kind of communication terminal, even if the multiple communication terminals in this community send access request signal simultaneously, it also is able to avoid the interference signal clashing and preventing to become other communities adjacent with this community, and the handling capacity in this community can be improved; And a kind of base station apparatus, by controlling the transmit power of access permission signal, it is prevented that it becomes the interference signal of other communities adjacent with this community.

Solve the scheme of this problem

The communication terminal that the present invention relates to, carries out radio communication with base station apparatus, comprising: receive unit, receives the pilot signal sent from described base station apparatus; Measuring unit, measures the quality of reception of the described pilot signal received; Select unit, the measurement result according to the quality of reception of described pilot signal, select to send, to described base station apparatus, the sub-channel that signal uses; Transmitting element, sends described signal with the sub-channel selected to described base station apparatus.

The communication terminal that the present invention relates to includes: receive unit, receives the pilot signal sent from base station apparatus; Measuring unit, measures the reception power of the described pilot signal received; Select unit, according to the described reception power measured, from respectively from associated plurality of group different of described reception power selects a group, multiple codes that the plurality of group of initial stage when comprising respectively for starting the communication between described base station apparatus is accessed; And transmitting element, in the plurality of code comprised from described group selected, it is randomly chosen code and uses it to perform the transmission of the initial stage access for described base station apparatus is carried out.

The base station apparatus that the present invention relates to, carries out radio communication with communication terminal, comprising: transmitting element, pilot signal is sent to described communication terminal, and reception unit, receive the signal accessed and send for the initial stage, described signal is in described communication terminal, the code being randomly chosen multiple codes of the group that use goes out from the reception power selection based on described pilot signal is transmitted, described group is from measuring with at described communication terminal respectively, the group selected in associated plurality of group different of the described reception power of described pilot signal, the plurality of code that the plurality of group of initial stage when comprising the communication starting between described base station apparatus for described communication terminal respectively is accessed.

The communication means that the present invention relates to, the communication means of use RACH from termination to base station apparatus, this communication means comprises the following steps: receive the pilot signal sent from described base station apparatus; Measure the reception power of the described pilot signal received; According to the described reception power measured, from respectively from associated plurality of group different of described reception power selects a group, multiple codes that the plurality of group of initial stage when comprising respectively for starting the communication between described base station apparatus is accessed; And in the plurality of code comprised from described group selected, it is randomly chosen code use it to perform transmission that the initial stage for described base station apparatus is carried out accesses.

The communication means that the present invention relates to, the communication means of use RACH from termination to base station apparatus, this communication means comprises the following steps: pilot signal is sent to described termination; And receive the signal accessed and send for the initial stage, described signal in described communication terminal, use the code being randomly chosen multiple codes of the group gone out from the reception power selection based on described pilot signal to be transmitted, described group is the group selected from associated plurality of group different from that measure at described communication terminal, described pilot signal respectively of described reception power, the plurality of code that the plurality of group of initial stage when comprising the communication starting between described base station apparatus for described communication terminal respectively is accessed.

The beneficial effect of the invention

According to the present invention, even if the multiple communication terminals in this community send access request signal simultaneously, it also is able to avoid the conflict between these signals and prevents it from becoming the interference signal of other communities adjacent with this community, and can improving the handling capacity of this community, the transmit power additionally controlling access permission signal is prevented from its interference signal becoming other communities adjacent with this community.

Accompanying drawing explanation

Fig. 1 is the ideograph of the structure of the wireless communication system that signal conventional art relates to;

Fig. 2 is the figure of the wireless signal that the communication terminal illustrating conventional art to relate to time sequencing sends/receives when starting communication and between base station;

Fig. 3 is the ideograph of the structure of the wireless communication system that signal embodiments of the invention 1 relate to;

Fig. 4 is the block diagram of the structure of the communication terminal that signal embodiments of the invention 1 relate to;

Fig. 5 is the block diagram of the structure of the base station apparatus that signal embodiments of the invention 1 relate to;

Fig. 6 be in signal embodiments of the invention 1 using extended code as the sub-channel of RACH use time, the exemplary plot of state to the sub-channel of each group distribution RACH after dividing by the quality of reception of pilot signal;

Fig. 7 be in signal embodiments of the invention 1 using the subcarrier in multi-carrier signal as the sub-channel of RACH use time, for the exemplary plot of form of the sub-channel of each group distribution RACH after dividing by the quality of reception of pilot signal;

Fig. 8 be in the signal embodiment of the present invention 1 using the code element of ofdm signal as the sub-channel of RACH use time, each group after being divided is distributed to the exemplary plot of form of the sub-channel of RACH by the quality of reception of pilot signal;

Fig. 9 is the figure of corresponding relation between the quality of reception of pilot signal in signal embodiments of the invention 1 and each group after being divided by communication terminal;

Figure 10 is the figure of corresponding relation between each group and the transmit power of access permission signal after being divided by communication terminal in signal embodiments of the invention 1;

Figure 11 is the figure of the wireless signal sending with communication terminal in the time sequencing signal embodiment of the present invention 1/receiving when starting communication and between base station apparatus;

Figure 12 is the figure of the wireless signal sending with communication terminal in the time sequencing signal embodiment of the present invention 1/receiving when starting communication and between base station apparatus;

Figure 13 is the figure of the wireless signal sending with communication terminal in the time sequencing signal embodiment of the present invention 1/receiving when starting communication and between base station apparatus;

Figure 14 is the figure of the structure of the base station apparatus that signal embodiments of the invention 2 relate to;

Figure 15 is the figure of corresponding relation between each group and modulation system and the encoding rate after being divided by communication terminal in signal embodiments of the invention 2;

Detailed description of the invention

Hereinafter explanation be will make reference to regard to embodiments of the invention. Give identical symbol to the structure with identical function in an embodiment and the repetitive description thereof will be omitted.

(embodiment 1)

Fig. 3 is the ideograph of the structure of the wireless communication system that signal embodiments of the invention 1 relate to. The wireless communication system that the present embodiment relates to includes multiple communication terminal 200 and base station apparatus 300. In this wireless communication system, multiple communication terminals 200 are by base station apparatus 300, for instance become 3 grades with the quality of reception of the pilot signal of transmission for criteria in CPICH. From getting well to differing from, group 1, group 2 and group 3 sequentially it is referred to as below by the quality of reception. Further, the communication terminal belonging to group 1 being expressed as communication terminal 200-1, the communication terminal belonging to group 2 is expressed as communication terminal 200-2, and the communication terminal belonging to group 3 is expressed as communication terminal 200-3. So, the communication terminal 200 being in this wireless communication system near cell edge just belongs to group 3.

Fig. 4 is the block diagram of the structure of the communication terminal 200 that signal embodiments of the invention 1 relate to. Communication terminal 200 includes: receives radio-cell 201, channel separative element 202, demodulating unit 203, decoding unit 204, quality of reception measuring unit 205, use sub-Channel assignment unit 206, coding unit 207, modulating unit 208, sub-channel assignment unit 209, transmission power control unit 211, send radio-cell 212 and antenna element 213.

Receive radio-cell 201, the pilot signal sent by base station apparatus 300 CPICH described later and the access permission signal etc. sent with FACH is received by antenna element 213, these are received signal and implements the reception process that frequency transformation and analog/digital conversion etc. are predetermined, and the reception signal after reception process is exported channel separative element 202.

Channel separative element 202, determines the channel of its use to from the signal that receives receiving radio-cell 201 input, however, it is determined that the channel gone out is CPICH, just this reception signal and pilot signal is exported quality of reception measuring unit 205. On the other hand, however, it is determined that the channel gone out is i.e. FACH etc. beyond CPICH, then this reception signal is exported demodulating unit 203 by channel separative element 202.

Demodulating unit 203, is demodulated in a predetermined manner to the reception signal inputted from channel separative element 202, and the reception signal after demodulation is exported decoding unit 204.

Decoding unit 204, is decoded in a predefined manner the reception signal inputted from demodulating unit 203 generating receiving data, and the reception data generated is exported not shown control unit etc.

Quality of reception measuring unit 205, the quality of reception such as signal power and noise power ratio (SIR:Signal-to-InterferencepowerRatio) or received power level measurement to the pilot signal inputted from channel separative element 202, and its measurement result is informed to respectively the sub-Channel assignment unit 206 of use and transmission power control unit 211.

The sub-Channel assignment unit 206 used, has by " the corresponding table " between the quality of reception and the sub-channel distributing to this each grade of hierarchical pilot signal. And, sub-channel group according to the selected RACH corresponding with the measurement result of the pilot signal reception quality notified by quality of reception measuring unit 205 of this correspondence table, then from selected sub-channel group, it is randomly chosen 1 sub-channel for sending access request signal. The sub-Channel assignment unit 206 used, by the sub-channel notification of selection to sub-channel assignment unit 209. It addition, be will be described later with the corresponding table of the sub-channel of the RACH distributing to each grade by the quality of reception of hierarchical pilot signal for signal.

The transmission data inputted from not shown control unit etc. are encoded generating sending signal, and the transmission signal of generation are exported modulating unit 208 by coding unit 207 in a predetermined manner.

Modulating unit 208, is modulated in a predetermined manner to the transmission signal inputted from coding unit 207, and the transmission signal after modulation is exported sub-channel assignment unit 209.

Sub-channel assignment unit 209, distributes predetermined resource at the access request signal starting when radio communication, not shown control unit etc. to be inputted, to use the sub-channel of the RACH notified by the sub-Channel assignment unit 206 used to be transmitted. The subcarrier etc. of timing, extended code or multi-carrier signal is such as had as this predetermined resource. Then, sub-channel assignment unit 209, the access request signal of predetermined resource will be assigned with predetermined timing output to transmission power control unit 211. Additionally, sub-channel assignment unit 209, after access request signal is exported transmission power control unit 211 in the time of regulation, from base station apparatus 300 do not have access permission signal to send over, after the compensation time of regulation, sub-channel to the RACH accessing sub-Channel assignment unit 206 notice that request signal distribution uses again, and the access request signal after distribution is exported transmission power control unit 211. On the other hand, sub-channel assignment unit 209, after access request signal is exported transmission power control unit 211 in the time of regulation, from base station apparatus 300 have access permission signal to send over, the transmission signal inputted from modulating unit 208 to use the data channel specified by this access permission signal to send, and the resource that the distribution of this transmission signal is predetermined, and in predetermined timing, this transmission signal is exported transmission power control unit 211.

Transmission power control unit 211, the access request signal inputted from sub-channel assignment unit 209 or transmission signal are amplified, to reach the power of the measurement result of the pilot signal reception quality corresponding to quality of reception measuring unit 205 notice, and the access request signal after amplification or transmission signal are exported transmission radio-cell 212.

Send radio-cell 212, to access request signal input from transmission power control unit 211 or send after signal implements digital-to-analog conversion and the transmission such as frequency transformation process, by antenna element 213 to base station apparatus 300 wireless transmission.

Fig. 5 is the block diagram of the structure of the base station apparatus 300 that signal embodiments of the invention 1 relate to. Base station apparatus 300 includes: receives radio-cell 301, RACH detection unit 302, demodulating unit 303, decoding unit 304, required transmission power calculation unit 305, coding unit 306, modulating unit 307, transmission power control unit 308, Multiplexing Unit 309, send radio-cell 311 and antenna element 312.

Receive radio-cell 301, the access request signal sent by communication terminal 200 RACH and the transmission signal to send is received with data channel by antenna element 312, and these are received the reception process that signal enforcement frequency transformation and analog/digital conversion etc. are predetermined, then the reception signal after reception process is exported RACH detection unit 302.

RACH detects unit 302, the detection of access request signal is carried out to from the signal that receives receiving radio-cell 301 input, when detecting access request signal, just this access request signal is exported required transmission power calculation unit 305, on the other hand when not detecting access request signal, RACH detects unit 302 and determines that in reception signal containing only there being common data signal, and this reception signal is exported demodulating unit 303.

Demodulating unit 303, implements demodulation process in a predetermined manner to the reception signal detecting unit input from RACH, and the reception signal after demodulation is exported decoding unit 304.

Decoding unit 304, is decoded in a predetermined manner the reception signal inputted from demodulating unit 303 generating receiving data, and the reception data generated is exported not shown control unit etc.

Required transmission power calculation unit 305, it is determined that the sub-channel of the RACH used when detecting the access request signal transmission of unit 302 input from RACH. Required transmission power calculation unit 305, there is the corresponding table using sub-Channel assignment unit 206 to have, according to this correspondence table, required transmission power calculation unit 305 is by the quality of reception of pilot signal in the sub-channel identification communication terminal 200 of determined RACH. Additionally, required transmission power calculation unit 305, there is " conversion table " that determined sub-channel is corresponding with the transmit power of access permission signal, utilize this conversion table to transmit power corresponding to the sub-channel calculating determined RACH, and the transmit power calculated is informed to transmission power control unit 308. It addition, will be described later for this conversion table.

Coding unit 306, implements coded treatment in a predetermined manner to the access permission signal inputted from not shown control unit etc. or transmission data and generates transmission signal, and the transmission signal of generation is exported modulating unit 307.

Modulating unit 307, is modulated in a predetermined manner to the transmission signal inputted from coding unit 306, and the transmission signal after modulation is exported transmission power control unit 308.

Transmission power control unit 308, is amplified to, by the signal that sends inputted from modulating unit 307, the power notified by power demand computing unit 305, and the transmission signal after amplifying is exported multiplexer unit 309.

Multiplexing Unit 309, it is periodically inputted pilot signal by not shown control unit etc., in the timing that this pilot signal is transfused to, by this pilot signal multiplexing on the transmission signal inputted from transmission power control unit 308, and the transmission signal after multiplexing is exported transmission radio-cell 311. It addition, Multiplexing Unit 309 is in the timing not having pilot signal to input, allow from the transmission signal of transmission power control unit 308 input either directly through to sending radio-cell 311.

Send radio-cell 311, the transmission signal that input from Multiplexing Unit 309 is implemented the transmissions such as digital-to-analog conversion and frequency transformation and processes, and the transmission signal after transmission being processed passes through antenna element 312 to communication terminal 200 wireless transmission.

It follows that the operation to communication terminal 200 and base station apparatus 300, it is specifically described with Fig. 6��Figure 13.

Fig. 6 schematic communication termination 200 using extended code as the sub-channel of RACH resource use time, to the state being distributed extended code with the quality of reception of pilot signal for standard by hierarchical group 1, group 2 and group 3. The group 1 that in Fig. 6, the quality of reception of pilot signal is best is assigned with 2 extended code #1, #2, the medium group 2 of this quality of reception is assigned with 3 extended code #3, #4, #5, and the worst group 3 of this quality of reception is assigned with remaining all operable extended code #6��#n (n is the natural number of more than 10).

It addition, Fig. 7 schematic communication termination 200 using the subcarrier of multi-carrier signal as the resource of the sub-channel of RACH use time, the group 1, group 2 and the group 3 that are standard class with the quality of reception of pilot signal are distributed the state of subcarrier. The group 1 that in Fig. 7, the quality of reception of pilot signal is best is assigned with 2 subcarriers #1, #2, the medium group 2 of this quality of reception is assigned with 3 subcarriers #3, #4, #5, and the worst group 3 of this quality of reception is assigned with remaining all operable subcarrier #6��#n (n is the natural number of more than 10).

Additionally, Fig. 8 schematic communication termination 200 using the code element of OFDM (OrthogonalFrequencyDivisionMultiplexing) signal as the resource of the sub-channel of RACH use time, the state to the code element being distributed ofdm signal with the quality of reception of pilot signal for standard by hierarchical group 1, group 2 and group 3. The group 1 that in Fig. 8, the quality of reception of pilot signal is best is assigned with the code element of 2 ofdm signals started most, the medium group 2 of this quality of reception is assigned with the code element of ensuing 3 ofdm signals, and the worst group 3 of this quality of reception is assigned with the code element of remaining all operable ofdm signals. It addition, the resource of the sub-channel of RACH can also is that the time slot specified by communication mode, it is possible to same with the code element of ofdm signal is assigned with.

Fig. 9 illustrates an example of the corresponding table using sub-Channel assignment unit 206 to have. In this correspondence table, being that more than 15dB is defined as group 1,5��15dB and is defined as group 2 using the measurement result receiving SIR as pilot signal reception quality obtained by quality of reception measuring unit 205 ,-3��5dB is defined as group 3. Group 1 shown in Fig. 9, group 2 and group 3 state shown in Fig. 6��Fig. 8 respectively is assigned with the sub-channel of RACH. Therefore, the sub-Channel assignment unit 206 used is based on this correspondence table, the measurement result of the pilot signal reception quality corresponding to being notified by quality of reception measuring unit 205, the sub-channel of the RACH of selected state assignment shown in Fig. 6��Fig. 8, then from selected many sub-channels, it is randomly chosen 1 sub-channel for sending access request signal. It addition, in the corresponding table shown in Fig. 9, corresponding to any one group when the measurement result of the pilot signal reception quality obtained by quality of reception measuring unit 205 is less than-3dB. This is because the words that the measurement result of pilot signal reception quality is less than-3dB, just illustrate that the situation in transmission path is excessively severe, even and if likely communication terminal 200 sends access request signal, base station apparatus 300 also cannot receive, therefore to prevent from becoming the interference signal of other communities adjacent, and do not allow the transmission of access request signal that communication terminal 200 carries out there is no need. But in this case, if the decay that the decline on transmission path or shielding etc. cause is restored, and the measurement result of the quality of reception of pilot signal is more than-3dB, and communication terminal 200 just can access base station device 300.

It addition, Figure 10 illustrates an example of conversion table that required transmission power calculation unit 305 has. This conversion table is relevant to the corresponding table shown in Fig. 9, assuming that the required reception SIR of the access permission signal in communication terminal 200 is 0dB, then the transmit power of the access permission signal in base station apparatus 300 just represents in order to the decibel that the transmit power of pilot signal is standard. Specifically, for group 1 owing to the measurement result of the pilot signal reception quality in communication terminal 200-1 is at more than 15dB, therefore for make the transmit power of the access permission signal in more than 0dB, base station apparatus 300 of the access permission signal receiving quality in communication terminal 200-1 just be configured to-15dB with the transmit power of pilot signal for standard. Same, for group 2 owing to the measurement result of the quality of reception of the pilot signal in communication terminal 200-2 is at more than 5dB, therefore the transmit power of the access permission signal in base station apparatus 300 is just configured to-5dB with the transmit power of pilot signal for standard. Same, for group 3 owing to the measurement result of the quality of reception of the pilot signal in communication terminal 200-3 is more than-3dB, therefore the transmit power of the access permission signal in base station apparatus 300 is just configured to 3dB with the transmit power of pilot signal for standard.

Figure 11 belongs to the communication terminal 200-1 of group 1 when starting communication with time sequencing signal, and the wireless signal sending between base station apparatus 300/receiving. Same, Figure 12 belongs to the communication terminal 200-2 of group 2 when starting communication with time sequencing signal, and the wireless signal sending between base station apparatus 300/receiving, additionally Figure 13 belongs to the communication terminal 200-3 of group 3 when starting communication with time sequencing signal, and the wireless signal sending between base station apparatus 300/receiving. Further, the reception power using pilot signal in Figure 11��Figure 13 is used as its quality of reception. As shown in Figure 11��Figure 13, communication terminal 200-1��200-3 is with the measurement result of pilot signal reception quality for standard, and the transmit power to the access request signal sent with RACH and with the packet of data channel transmission is controlled. On the other hand, base station apparatus 300 is determined by the sub-channel of the RACH that communication terminal 200 uses, indirectly identify the measurement result of the pilot signal reception quality of communication terminal 200, in other words, base station apparatus 300, by identifying which in group 1��3 this communication terminal 200 belong to, controls the transmit power with the FACH access permission signal sent. Therefore, just compare Figure 11 Figure 13 it can be seen that the transmit power sending the FACH of access permission signal is different, and the transmit power of the FACH in the Figure 13 illustrating pilot signal reception quality to be worst communication terminal 200-3 is the highest.

So, according to the wireless communication system that the present embodiment relates to, owing to communication terminal 200 is by hierarchical for the measurement result of the quality of reception of pilot signal, in advance this each grade is distributed the sub-channel of special RACH, and the sub-channel being used for sending the RACH of access request signal is selected according to actual measurement result, it is thus possible to reduce the probability that multiple communication terminal 200 uses the sub-channel of same RACH simultaneously. Its result is, according to the wireless communication system that the present embodiment relates to, access request signal is reliably received by base station apparatus 300, the number of times retransmitting access request signal reduces, therefore communication terminal 200 can start radio communication at short notice, and the handling capacity of this community can be improved, it is prevented that produce interference signal in other communities adjacent with this community.

Additionally, wireless communication system according to the present embodiment, the base station apparatus 300 quality of reception according to the respective access request signal of communication terminal 200-1��200-3, access permission signal is sent, it is thus possible to prevent access permission signal from becoming the interference signal of other communities adjacent with this community with transmit power enough fully.

Additionally, wireless communication system according to the present embodiment, communication terminal 200 uses the corresponding table that sub-Channel assignment unit 206 has, for by hierarchical pilot signal reception quality, the sub-channel that (such as group 1) that sub-channel ratio grade that (such as group 3) that grade is low are assigned to is high is assigned to is many, therefore the communication terminal 200 of position near cell edge more it is in, the probability simultaneously using the sub-channel of same RACH reduces and retransmits the number of times of access request signal and also just reduce, it is thus possible to effectively prevent from producing interference signal in other communities adjacent with this community.

Additionally, the present embodiment such as relating to wireless communication system in, communication terminal 200 use in the corresponding table that sub-Channel assignment unit 206 has, for the quality of reception by hierarchical pilot signal, the narrow range of the quality of reception that the scope of the quality of reception that grade is low is higher than grade. Specifically, the quality of reception of group 1 range for more than 15dB without the upper limit, the 10dB ranged between 5��15dB of the quality of reception of group 2, the 8dB ranged between-3��5dB of the quality of reception of group 3. So, according to the wireless communication system that the present embodiment relates to, the inferior grade of the narrow range of the quality of reception of the pilot signal sub-channel that just distribution is more many, therefore, it is possible to more efficiently reduce the communication terminal 200 being positioned near cell edge to retransmit the number of times of access request signal, and more efficiently prevent from the generation of the interference signal of other communities adjacent with this community.

It addition, the present embodiment can also be carried out following deformation or application.

What this example demonstrates that is, in base station apparatus 300, power demand computing unit 305 determines the sub-channel of the RACH for sending access request signal, and the transmit power corresponding with the sub-channel determined is informed to the situation of transmission power control unit 308, but the invention is not limited in this situation, such as power demand computing unit 305 can also have the requirement signal measurement unit measuring access request signal receiving quality, the required quality of reception of the quality of reception that signal measurement unit measures and communication terminal 200 will be required by this, namely the intended recipient quality of transmission power control compares, when the difference of the quality of reception is bigger than predetermined value, increase or reduce the transmit power corresponding with the sub-channel of RACH, and the transmit power after increase and decrease is informed to transmission power control unit 308.

The calculating of the transmit power of the access permission signal in this power demand computing unit 305 is based on what the quality of reception of access request signal was undertaken by closed loop, communication terminal 200 is from receiving pilot signal to sending access request signal demand certain time, or in the change situation faster in transmission path, if calculating transmit power by closed loop, the transmit power calculated is likely not to have the transmission route conditions reflecting reality exactly. So, in required transmission power calculation unit 305, except calculating except transmit power by closed loop, calculate the words of transmit power also by the open loop of the quality of reception measuring access request signal, it becomes possible to carry out the transmission power control of access permission signal more exactly.

(embodiment 2)

In embodiments of the invention 2, base station apparatus is illustrated based on the situation of the encoding rate and modulation system that change FACH with using resource-adaptive of RACH. Further, since the structure of communication terminal that the present embodiment relates to is identical with Fig. 4, therefore continues to use Fig. 4 and illustrate.

Figure 14 illustrates the block diagram of structure of base station apparatus 400 that the embodiment of the present invention 2 relates to. Base station apparatus 400 includes: receives radio-cell 301, RACH detection unit 302, demodulating unit 303, decoding unit 304, self-adaptive controller 413, coding unit 406, modulating unit 407, Multiplexing Unit 309, send radio-cell 311 and antenna element 312.

Adaptive unit 413, for detecting the access request signal of unit 302 input from RACH, the sub-channel of the RACH used when determining transmission, utilizes conversion table to set modulation system and encoding rate, and modulation system and the encoding rate of setting is exported coding unit 406 and modulating unit 407. The transmission parameter of the described conversion table channel determined of signal and access permission signal, the i.e. corresponding relation of modulation system and encoding rate combination.

Coding unit 406, to the access permission signal inputted from not shown control unit or transmission data, encoding rate or coded method according to the transmission parameter (information of encoding rate and modulation system) inputted from self-adaptive controller 413 implement coded treatment to generate transmission signal, and the transmission signal of generation is exported modulating unit 407.

Modulating unit 407, modulates the signal that sends inputted from coding unit 406 according to the modulation system of the transmission parameter inputted from self-adaptive controller 413, and the transmission signal after modulation is exported multiplexer unit 309.

Figure 15 illustrates an example of conversion table that self-adaptive controller 413 has. This conversion table is relevant to the corresponding table shown in Fig. 9, and the quality of reception of communication terminal 200 is more high, and modulation levels and encoding rate are more high. Such as, the quality of reception in group 1 is more than 15dB, the transmission parameter therefore using required SIR to be 15dB, if using transmission parameter 16QAM and the R=3/4 that efficiency of transmission that the of a sufficiently low bit error rate could receive is the highest when namely receiving SIR more than 15dB. Reception SIR in group 2 is 5dB��15dB, transmission parameter QPSK and the R=1/2 therefore using required SIR to be 5dB. Group 3 is same.

The transmission parameter that efficiency of transmission is more high, it is possible to allow base station apparatus 400 send access permission signal at short notice.

So according to the present embodiment, due to the base station apparatus 400 quality of reception according to the respective access request signal of communication terminal 200-1��200-3, use the of a sufficiently low bit error rate could receive the highest transmission parameter of efficiency of transmission to send access permission signal, it is thus able to shorten the transmission time of access permission signal, additionally it is possible to prevent access permission signal from becoming the interference signal of other communities.

In above-mentioned each embodiment, it is illustrated for the situation that the present invention is made up of hardware, but the present invention can also be realized by software.

It addition, each functional device used in the explanation of the various embodiments described above, most typically realized by the LSI that integrated circuit is constituted. It can be special chip, it is also possible to all or part of functional packet be contained in one single chip. It addition, LSI referred to herein, according to the difference of integrated level also referred to as " IC ", " system LSI ", " super LSI ", " super large LSI " etc.

The method of integrated circuit is not limited to LSI, it is also possible to realized by special circuit or general processor. After manufacturing LSI, programmable FPGA (FieldProgrammableGateArray) or the reconfigurable processor that the connection of the circuit block within LSI or setting can reconstitute can also be used.

Furthermore, according to the progress of semiconductor technology or derivative other technologies, if there being the integrated circuit technology that can substitute LSI to come out, naturally it is also possible to utilize this technology to carry out the integrated of functional device. Also there is the probability of Applied Biotechnology.

Additionally, in the wireless communication system that the various embodiments described above relate to, accordingly the situation that multiple communication terminals 200 are divided into 3 groups is illustrated with the grade of the quality of reception of pilot signal, but the invention is not limited in this, for instance the quantity of group can be increased.

It addition, access permission signal can use the AICH (AcknowledgeIndicatorChannel) in such as 3GPP standard, FACH (ForwardAccessChannel), S-CCPCH (Secondary-CommonControlPhysicalChannel), HS-SCCH (HighSpeed-SharedControlChannel), DPCH (DedicatedPhysicalChannel) to send.

Additionally, in the various embodiments described above, to send access request by RACH and to send transmission packet after access permission by FACH and be illustrated, but RACH is used for the data that send beyond access request signal or FACH is used for the data sent beyond access permission signal also is able to obtain same effect. Such as, for shorter packet or to postponing to require strict packet etc., it is possible to the packet FACH of the packet RACH of up-link, downlink is sent.

As long as it addition, its resource of RACH in the various embodiments described above is the collision channels being not assigned to each user in advance, it is possible to use other channel.

Additionally, in the various embodiments described above, to speculate that the quality of reception is illustrated according to receiving SIR, but can also according to receiving SNR, receive CIR, receive SINR, receive CINR, receive power, jamming power, the bit error rate, handling capacity, the MCS (combination of modulation system and encoding rate) etc. that can reach predetermined errors rate speculate. It addition, also base station apparatus can be expressed as NodeB, communication terminal is expressed as UE.

The communication terminal of first aspect present invention, itself and base station apparatus carry out radio communication, including: receive unit, receive the pilot signal sent from described base station apparatus; Measuring unit, measures the quality of reception of the described pilot signal received; Select unit, the measurement result according to the quality of reception of described pilot signal, select the sub-channel for sending signal to described base station apparatus; Transmitting element, sends described signal with the sub-channel selected to described base station apparatus.

The communication terminal of second aspect present invention, wherein said transmitting element RACH sends described signal.

The communication terminal of third aspect present invention, wherein said transmitting element sends access request signal.

The communication terminal of fourth aspect present invention, wherein said selection unit, distribute more than high-grade sub-channel by the inferior grade of the hierarchical quality of reception, from the sub-channel distributing to the grade corresponding with the measurement result of described pilot signal reception quality, select to send, to described base station apparatus, the sub-channel that signal uses.

The communication terminal of fifth aspect present invention, wherein said selection unit, for by the hierarchical quality of reception, the scope of the low-grade quality of reception narrows and makes it less than the scope of the high-grade quality of reception and to each ranking score sub-channel, again from the sub-channel distributing to the grade corresponding with the measurement result of described pilot signal reception quality, select to send, to described base station apparatus, the sub-channel that signal uses.

The base station apparatus of sixth aspect present invention, itself and communication terminal carry out radio communication, including: receive unit, receive the signal that described communication terminal sends; Detection unit, the sub-channel used during its transmission of the described signal that detection receives; Transmitting element, with the transmit power that the described sub-channel that detects is corresponding, or the described sub-channel detected is to corresponding modulation system and encoding rate, sends signal to described communication terminal.

The base station apparatus of seventh aspect present invention, wherein said transmitting element, send access permission signal.

The base station apparatus of eighth aspect present invention, also include: require signal measurement unit, measure the quality of reception of the signal received by described reception unit, wherein, described transmitting element, according to by the difference between the described quality of reception requiring signal measurement unit to measure and the intended recipient quality of transmission power control, increasing or reduce the transmit power corresponding with described sub-channel detected by described detection unit, and send signal with the transmit power after increase and decrease to described communication terminal.

The base station apparatus of ninth aspect present invention, wherein said reception unit, the signal that reception sends with RACH.

The wireless communication system of tenth aspect present invention, is made up of communication terminal and base station apparatus, and described communication terminal includes: terminal receiving unit, receives the pilot signal that described base station sends; Measuring unit, measures the quality of reception of the described pilot signal received; Select unit, the measurement result according to described pilot signal reception quality, select to send, to described base station apparatus, the sub-channel that signal uses; Terminal transmitting element, sends described signal with the sub-channel selected to described base station apparatus, and described base station apparatus includes: base transceiver unit, receives the described signal that described communication terminal sends; Detection unit, the sub-channel used during its transmission of the described signal that detection receives; Base station transmitting element, with the transmit power that the described sub-channel that detects is corresponding, sends signal to described communication terminal.

The wireless communication system of the present invention the 11st aspect, wherein said terminal transmitting element, send access request signal.

The wireless communication system of the twelfth aspect of the present invention, wherein said base station sends

Unit, sends access permission signal.

This specification is based on Japan Patent Patent 2004-173017 application proposed on June 10th, 2004. Its content is all incorporated herein.

Industrial applicibility

The communication terminal that the present invention relates to and base station apparatus, by lowering the incidence rate of access request signal conflict in this community, prevent from other communities adjacent with this community, produce interference signal, and there is the effect of the handling capacity improving this community, it is adaptable to wireless communication system etc.

Claims (18)

1. a communication terminal, including:

Receive unit, receive the pilot signal sent from base station apparatus;

Measuring unit, measures the reception power of the described pilot signal received;

Select unit, according to the described reception power measured, from respectively from associated plurality of group different of described reception power selects a group, multiple codes that the plurality of group of initial stage when comprising respectively for starting the communication between described base station apparatus is accessed; And

Transmitting element, in the plurality of code comprised, is randomly chosen code and uses it to perform the transmission of the initial stage access for described base station apparatus is carried out from described group selected.

2. communication terminal according to claim 1, wherein shares between described base station apparatus and described communication terminal about the information of the group being associated with described reception power.

3. communication terminal according to claim 1, wherein said transmitting element performs the transmission of access request signal.

4. communication terminal according to claim 1, wherein said multiple codes are assigned to the plurality of group at described base station apparatus.

5. communication terminal according to claim 1, wherein the described reception power less than-3dB is all unconnected with any one group.

6. the communication terminal according to any claim in claim 1 to 5, the number of the plurality of code that the number of the plurality of code that the group being wherein associated with low reception power comprises comprises more than the group being associated with height reception power.

7. a base station apparatus, carries out radio communication with communication terminal, comprising:

Transmitting element, is sent to described communication terminal by pilot signal; And

Receive unit, receive the signal accessed and send for the initial stage, described signal is in described communication terminal, the code being randomly chosen multiple codes of the group that use goes out from the reception power selection based on described pilot signal is transmitted, described group is the group selected from associated plurality of group different from that measure at described communication terminal, described pilot signal respectively of described reception power, the plurality of code that the plurality of group of initial stage when comprising the communication starting between described base station apparatus for described communication terminal respectively is accessed.

8. base station apparatus according to claim 7, wherein also has the corresponding relation between described reception power and described group of described pilot signal.

9. base station apparatus according to claim 7, the described code that wherein said transmitting element uses based on the described signal received at described reception unit, transmission signal is sent to described communication terminal.

10. base station apparatus according to claim 7, the described reception power that wherein said transmitting element associates based on the described code-phase used with the described signal received at described reception unit, transmission signal is sent to described communication terminal.

11. base station apparatus according to claim 7, the transmit power of the wherein said transmitting element corresponding association of described reception power of described code-phase association to use with the described signal received at described reception unit, is sent to described communication terminal by transmission signal.

12. base station apparatus according to claim 7, wherein said reception unit receives described signal as access request signal, and described transmitting element sends access permission signal.

13. base station apparatus according to claim 7, wherein said transmitting element is based on the modulation system of the described code used with the described signal received at described reception unit or encoding rate, to be sent to described communication terminal by transmission signal.

14. base station apparatus according to claim 7, wherein share between described base station apparatus and described communication terminal about the information of the group being associated with described reception power.

15. base station apparatus according to claim 7, wherein the described reception power less than-3dB is all unconnected with any one group.

16. the base station apparatus according to any claim in claim 7 to 15, the number of the plurality of code that the number of the plurality of code that the group being wherein associated with low reception power comprises comprises more than the group being associated with height reception power.

17. a communication means, the communication means of use RACH from termination to base station apparatus, this communication means comprises the following steps:

Receive the pilot signal sent from described base station apparatus;

Measure the reception power of the described pilot signal received;

According to the described reception power measured, from respectively from associated plurality of group different of described reception power selects a group, multiple codes that the plurality of group of initial stage when comprising respectively for starting the communication between described base station apparatus is accessed; And

In the plurality of code comprised from described group selected, it is randomly chosen code and uses it to perform the transmission of the initial stage access for described base station apparatus is carried out.

18. a communication means, the communication means of use RACH from termination to base station apparatus, this communication means comprises the following steps:

Pilot signal is sent to described termination; And

Receive the signal accessed and send for the initial stage, described signal is in described communication terminal, the code being randomly chosen multiple codes of the group that use goes out from the reception power selection based on described pilot signal is transmitted, described group is the group selected from associated plurality of group different from that measure at described communication terminal, described pilot signal respectively of described reception power, the plurality of code that the plurality of group of initial stage when comprising the communication starting between described base station apparatus for described communication terminal respectively is accessed.